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Saturday, October 11, 2014

Satellites Detect 'Thousands' of New Ocean-Bottom Mountains

Ocean bottom viewing is now increasing rapidly and we can expect an excellent view in the next twenty years or so. Yet we already have a surprise. The ocean floor is peppered with volcanoes that are not so apparent in continental geology. The instant take home is that the handful we see are the scant above water reps of a massive population. The sea floor turns out to be hugely active.

That actually put a niggling question sitting there in the back of my mind to rest. The process is ongoing, and very active and extremely common. We have just seen too little of it.

It also explains the well adapted sea mount wildlife. The next locale was really close.

Satellites detect 'thousands' of new ocean-bottom mountains

By Jonathan AmosScience correspondent, BBC New

2 October 2014Last updated at 14:12 ET

http://www.bbc.com/news/science-environment-29465446

The new gravity data gives us our clearest view yet of the shape of the ocean floor

It
is not every day you can announce the discovery of thousands of new
mountains on Earth, but that is what a US-European research team has
done.

What is more, these peaks are all at least 1.5km high.

The reason they have gone unrecognised until now is because they are at the bottom of the ocean.

"In the previous radar dataset we could see everything taller
than 2km, and there were 5,000 seamounts," Prof Sandwell told BBC News.

"With our new dataset - and we haven't fully done the work yet - I'm guessing we can see things that are 1.5km tall.

"That might not sound like a huge improvement but the number of seamounts goes up exponentially with decreasing size.

Dietmar Müller: We know Knowing where the seamounts are is important for fisheries
management and conservation, because it is around these topographic
highs that wildlife tends to congregate.

The roughness of the seafloor is important also as it steers
currents and promotes mixing - behaviours that are critical to
understanding how the oceans transport heat and influence the climate.

But our knowledge of the seafloor is poor; witness the
problems they have had searching for the missing Malaysia Airlines jet
MH370, which is believed to have crashed west of Australia.

Seeing fracture zones tells scientists about the movement of the continents

The problem is that saltwater is opaque to all the standard techniques that are used to map mountains on land.

Ship-borne echosounders can gather very high-resolution
information by bouncing sound off bottom structures, but less than 10%
of the global oceans have been properly surveyed in this way because of
the effort it involves.

Dietmar Müller from the University of Sydney said: "You may
generally think that the great age of exploration is truly over; we've
been to all the remotest corners of continents, and perhaps one might
think also of the ocean basins. But sadly this is not true - we know
much more about the topography of Mars than we know about the seafloor."

Satellite observations

The alternative is an indirect method that uses satellites fitted with radar altimeters.

These spacecraft can infer the shape of the ocean bottom from the shape of the water surface above.

Because water follows gravity, it is pulled into highs above
the mass of tall seamounts, and slumps into depressions over deep
trenches.

Most of our maps of the gross outlines of mountains on the seafloor have relied on this approach.

Key advances were made using US Navy and European Space Agency satellites in the 80s and 90s.

Gulf of Mexico: The jagged outline of an extinct spreading ridge is discernable

Now, Sandwell and his team have gathered new, improved datasets
from more recent spacecraft - Jason 1, which was recently taken out of
service, and CryoSat, which continues to orbit the Earth today.

Their denser coverage and better radar technologies have
brought a two-fold improvement in the gravity model used to describe the
ocean floor.

This richer information trove has barely been investigated yet, but already new discoveries are jumping out.

These include an extinct ridge where the seafloor spread apart to help open up the Gulf of Mexico about 180 million years ago.

And in the South Atlantic, the team sees the two halves of a
different type of ridge feature that became separated roughly 85 million
years ago when Africa rifted away from South America.

Biodiversity and Conservation: It is around seamounts that wildlife tends to congregate

The striking thing is that many such structures are often
covered by deep sediments and only become visible in the new gravity
data.

Seeing all the major fracture zones in greater detail is sure
to be a boon to those who study the history of Earth's shifting
continents.

The team hopes to improve still the resolution of its model.

This will come as Cryosat continues to take more measurements in the years ahead.

The irony here is that the European Space Agency mission is
really dedicated to tracing the shape and thickness of polar ice fields -
not the shape of the seafloor.

CryoSat's primary role is to measure the shape of polar ice surfaces - not the shape of the seafloor

"CryoSat's orbit and payload were designed to meet its primary
ice mission goals, and extending its coverage to the ocean was on a
'let's see what we get' basis," said principal investigator Duncan
Wingham. "As it has turned out, we now have a marvellous new view of the
ocean floor."

For its ice work, CryoSat works in a specific high-resolution
mode, which could be extended to more areas of the ocean to garner
improved seafloor data - if mission time allows.

Ultimately, though, researchers would like to see a dedicated mapper that was specifically tuned to the task.

Walter Smith, a co-author on Thursday's Science paper, proposed just such a mission in 2001 called ABySS.

It was not accepted then, but the National Oceanic and
Atmospheric Administration scientist believes the case is still a
compelling one.

"The miniaturization of computer chips and the increase in
CPU processing speed and data storage in the last 13 years has made it
easy and cheap to do amazing things with radar," he told BBC News.

"There is still a lot we could do with a dedicated mission.
It could be done - everything, 'soup to nuts' - for 100 million Euros
(£80m), and the necessary technological innovations are well known to
radar engineers in England, France and elsewhere. It is just a question
of political will to find the budget."

Interpolation of ocean-floor shape by satellite

Most ocean maps are derived from satellite altimeter measurements

Satellites infer ocean-floor features from the shape of the sea surface

They detect surface height anomalies driven by variations in local gravity

The gravity from the extra mass of mountains makes the water pile up

In lower-mass regions, such as over trenches, the sea-surface will dip

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Apr 2017 - 4.1 Mil Pg Views, March 2013 - Posted my paper introducing CLOUD COSMOLOGY & NEUTRAL NEUTRINO rigorously described as the SPACE TIME PENDULUM, September 2010 I am pleased to report that my essay titled A NEW METRIC WITH APPLICATIONS TO PHYSICS AND SOLVING CERTAIN HIGHER ORDERED DIFFERENTIAL EQUATIONS' has been published in Physics Essays(AIP) and appeared in their June 2010 quarterly. 40 years ago I took an honors degree in applied mathematics from the University of Waterloo. My interest was Relativity and my last year there saw me complete a 900 level course under Hanno Rund on his work in relativity,as well as differential geometry(pure math) and of course analysis. I continued researching new ideas and knowledge since that time and I have prepared a book for publication titled Paradigms Shift&. I maintain my blog as a day book and research tool to retain data and record impressions and interpretations on material read. Do join my blog and receive Four items of interest daily Monday through Saturday.